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Comparison and verification of turbulence Reynolds-averaged Navier–Stokes closures to model spatially varied flows

Kudzai Chipongo, Mehdi Khiadani, Kaveh Sookhak Lari

2020Scientific Reports25 citationsDOIOpen Access PDF

Abstract

The robustness and accuracy of Reynolds-averaged Navier-Stokes (RANS) models was investigated for complex turbulent flow in an open channel receiving lateral inflow, also known as spatially varied flow with increasing discharge (SVF). The three RANS turbulence models tested include realizable k-ε, shear stress transport k-ω and Reynolds stress model based on their prominence to model jets in crossflows. Results were compared to experimental laser Doppler velocimetry measurements from a previous study. RANS results in the uniform flow region and farther from the jet centreline were more accurate than within the lateral inflow region. On the leeward side of the jet, RANS models failed to capture the downward velocity vectors resulting in major deviations in vertical velocity. Among RANS models minor variations were noted at impingement and near the water surface. Regardless of inadequately predicting complex characteristics of SVF, RANS models matched experimental water surface profiles and proved more superior to the theoretical approach currently used for design purposes.

Topics & Concepts

Reynolds-averaged Navier–Stokes equationsTurbulenceMechanicsInflowReynolds stressTurbulence kinetic energyShear stressReynolds numberRobustness (evolution)PhysicsChemistryGeneBiochemistryFluid Dynamics and Turbulent FlowsHydrology and Sediment Transport ProcessesHydraulic flow and structures
Comparison and verification of turbulence Reynolds-averaged Navier–Stokes closures to model spatially varied flows | Litcius